Broadband Power-line Communications Systems: Theory & ApplicationsHigh capacity links in transmission systems could eliminate the need for fiber optic cables in telecommunication networks. Advances in this field led to the evolution of Broadband Power Line Communication (BPLC). This book covers both the theoretical and practical aspects of BPLC technology. |
Contents
Chapter | 11 |
Chapter 3 | 23 |
The validity of Zimmermann and Dostert model and its improvements | 36 |
Network transfer functions for coupled | 45 |
Chapter 4 | 55 |
frequency response | 90 |
Chapter 5 | 97 |
Common terms and phrases
analysis Anatory applications attenuation bandwidth BPSK branch lengths branch line length branch terminated broadband cable channel capacity chapter characteristic impedances codes communication compared concatenated conductivity conductor configuration connected considered constant corresponding direct discussed distributed branches Effects equally equations Excess Delay Microsecond factor Figure four Frequency in MHz frequency responses given high impedances IEEE Transactions improvement impulse response increases indoor influence load impedance matrix maximum modulation multipath node noise notches Note number of branches observed obtained OFDM system parameters path peaks performance positions Power Delivery power line power-line channel power-line communication power-line link power-line network propagation PSD in dBm/Hz pulse receiver reflected respectively shown in Fig shows signal similar Simulation results Table terminated terminated in 50 terminated in characteristic tion transfer function transmission line transmitted underground varied wave